Tunable quantum emitters and coherent modulation on foundry integrated photonics

Hugo Larocque; Dashiell L. P. Vitullo; Mustafa Atabey Buyukkaya; Alexander Sludds; Carlos Errando-Herranz; Camille Papon; Samuel Harper; Max Tao; Jacques Carolan; Hamed Sattari; Ian Christen; Gregory Choong; Ivan Prieto; Jacopo Leo; Chang-Min Lee; Homa Zarebidaki; Sanjaya Lohani; Brian T. Kirby; Öney O. Soykal; Christopher J. K. Richardson; Gerald L. Leake; Daniel J. Coleman; Moe Soltani; Amir H. Ghadimi; Mikkel Heuck; Michael L. Fanto; Edo Waks; Dirk Englund

doi:10.1117/12.3021136

7 June 2024 Tunable quantum emitters and coherent modulation on foundry integrated photonics

Hugo Larocque, Dashiell L. P. Vitullo, Mustafa Atabey Buyukkaya, Alexander Sludds, Carlos Errando-Herranz, Camille Papon, Samuel Harper, Max Tao, Jacques Carolan, Hamed Sattari, Ian Christen, Gregory Choong, Ivan Prieto, Jacopo Leo, Chang-Min Lee, Homa Zarebidaki, Sanjaya Lohani, Brian T. Kirby, Öney O. Soykal, Christopher J. K. Richardson, Gerald L. Leake, Daniel J. Coleman, Moe Soltani, Amir H. Ghadimi, Mikkel Heuck, Michael L. Fanto, Edo Waks, Dirk Englund

Author Affiliations +

Proceedings Volume 13028, Quantum Information Science, Sensing, and Computation XVI; 130280J (2024) https://doi.org/10.1117/12.3021136
Event: SPIE Defense + Commercial Sensing, 2024, National Harbor, Maryland, United States

Abstract

Photonic integrated circuits provide a scalable platform for photonics-based quantum technologies. However, integrating quantum emitters and electro-optic cavities within this platform remains an open challenge proving to be a major hurdle from implementing key functionalities for quantum photonics, such as single photon sources and nonlinearities. Here, we address this shortcoming with the hybrid integration of InAs/InP quantum dot emitters on foundry silicon photonics and the implementation of photonic crystal cavities in thin-film lithium niobate. Co-integrated on-chip electronics allow us to tune the emission properties of the quantum dots while enabling GHz-rate coherent modulation over photons trapped in the cavities, thus providing a new level of programmability over interactions between optical fields and atom-like systems in integrated circuits. Our results open the door to a new generation of quantum information processors that can be manufactured in leading semiconductor foundries.

Conference Presentation

Citation Download Citation

Hugo Larocque, Dashiell L. P. Vitullo, Mustafa Atabey Buyukkaya, Alexander Sludds, Carlos Errando-Herranz, Camille Papon, Samuel Harper, Max Tao, Jacques Carolan, Hamed Sattari, Ian Christen, Gregory Choong, Ivan Prieto, Jacopo Leo, Chang-Min Lee, Homa Zarebidaki, Sanjaya Lohani, Brian T. Kirby, Öney O. Soykal, Christopher J. K. Richardson, Gerald L. Leake, Daniel J. Coleman, Moe Soltani, Amir H. Ghadimi, Mikkel Heuck, Michael L. Fanto, Edo Waks, and Dirk Englund "Tunable quantum emitters and coherent modulation on foundry integrated photonics", Proc. SPIE 13028, Quantum Information Science, Sensing, and Computation XVI, 130280J (7 June 2024); https://doi.org/10.1117/12.3021136

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